1. Nomenclature and definitions of nanocomposites,
2. Types of fillers (tubular, layered, particulate) inorganic and organic,
3. Functional fillers (antimicrobial, conductive, insulating, reinforcing),
4. Matrices: Types and Definitions,
5. Polymeric matrices (bio-polymers, conventional polymers, syntheses),
6. Metal matrices (pure metals, alloys),
7. Ceramic matrices (nitric, oxide, mineral),
8. Component compatibility (filler modification, compatibilizators),
9. Methods of nanocomposite processing (hot compassing, deposition of layers , mechanofusion),
10. Evaluation of structural parameters of nanocomposites,
11. Mechanical parameters of nanocomposites,
12. Evaluation of physical parameters (conductivity, optical, rheological),
13. Analytical methods of evaluation of nanocomposites,
14. Molecular models and simulations for nanocomposite materials.
2. Types of fillers (tubular, layered, particulate) inorganic and organic,
3. Functional fillers (antimicrobial, conductive, insulating, reinforcing),
4. Matrices: Types and Definitions,
5. Polymeric matrices (bio-polymers, conventional polymers, syntheses),
6. Metal matrices (pure metals, alloys),
7. Ceramic matrices (nitric, oxide, mineral),
8. Component compatibility (filler modification, compatibilizators),
9. Methods of nanocomposite processing (hot compassing, deposition of layers , mechanofusion),
10. Evaluation of structural parameters of nanocomposites,
11. Mechanical parameters of nanocomposites,
12. Evaluation of physical parameters (conductivity, optical, rheological),
13. Analytical methods of evaluation of nanocomposites,
14. Molecular models and simulations for nanocomposite materials.